#lang racket

(define (element-of-set? x set)
  (cond ((null? set) false)
        ((= x (car set)) true)
        ((< x (car set)) false)
        (else (element-of-set? x (cdr set)))))

(define (intersection-set set1 set2)
  (if (or (null? set1) (null? set2))
      '()
      (let ((x1 (car set1))
            (x2 (car set2)))
        (cond ((= x1 x2)
               (cons x1
                     (intersection-set (cdr set1)
                                       (cdr set2))))
              ((< x1 x2)
               (intersection-set (cdr set1) set2))
              ((< x2 x1)
               (intersection-set set1 (cdr set2)))))))

(define (adjoin-set x set)
  (cond ((null? set) (list x))
        ((= x (car set)) set)
        ((< x (car set)) (cons x set))
        (else (cons (car set) (adjoin-set x (cdr set))))))

(define (union-set set1 set2)
  (cond ((null? set1) set2)
        ((null? set2) set1)
        (else (let ((x1 (car set1))
                    (x2 (car set2)))
                (cond ((= x1 x2) (cons x1 
                                       (union-set (cdr set1)
                                                  (cdr set2))))
                      ((< x1 x2) (cons x1
                                       (union-set (cdr set1)
                                                  set2)))
                      ((< x2 x1) (cons x2
                                       (union-set set1 
                                                  (cdr set2)))))))))

(union-set (list 2 4 6) (list 1 3 5))